| Literature DB >> 28387117 |
Chia-Yuan Chen, Zih-Hong Jian, Shih-Han Huang, Kun-Mu Lee, Ming-Hsuan Kao1, Chang-Hong Shen1, Jia-Min Shieh1, Chin-Li Wang2, Chiung-Wen Chang2, Bo-Zhi Lin2, Ching-Yao Lin2, Ting-Kuang Chang, Yun Chi, Cheng-Yu Chi3, Wei-Ting Wang3, Yian Tai3, Ming-De Lu4, Yung-Liang Tung4, Po-Ting Chou5, Wen-Ti Wu5, Tahsin J Chow5, Peter Chen, Xiang-Hao Luo, Yuh-Lang Lee, Chih-Chung Wu, Chih-Ming Chen, Chen-Yu Yeh, Miao-Syuan Fan6, Jia-De Peng6, Kuo-Chuan Ho6, Yu-Nan Liu7, Hsiao-Yi Lee7, Chien-Yu Chen, Hao-Wu Lin, Chia-Te Yen8, Yu-Ching Huang8, Cheng-Si Tsao8, Yu-Chien Ting, Tzu-Chien Wei, Chun-Guey Wu.
Abstract
Indoor utilization of emerging photovoltaics is promising; however, efficiency characterization under room lighting is challenging. We report the first round-robin interlaboratory study of performance measurement for dye-sensitized photovoltaics (cells and mini-modules) and one silicon solar cell under a fluorescent dim light. Among 15 research groups, the relative deviation in power conversion efficiency (PCE) of the samples reaches an unprecedented 152%. On the basis of the comprehensive results, the gap between photometry and radiometry measurements and the response of devices to the dim illumination are identified as critical obstacles to the correct PCE. Therefore, we use an illuminometer as a prime standard with a spectroradiometer to quantify the intensity of indoor lighting and adopt the reverse-biased current-voltage (I-V) characteristics as an indicator to qualify the I-V sampling time for dye-sensitized photovoltaics. The recommendations can brighten the prospects of emerging photovoltaics for indoor applications.Entities:
Year: 2017 PMID: 28387117 DOI: 10.1021/acs.jpclett.7b00515
Source DB: PubMed Journal: J Phys Chem Lett ISSN: 1948-7185 Impact factor: 6.475